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N-Methyl-(2-thienylmethyl)amine, also known as MTMA, is a chemical compound that is widely used in the chemical industry for various purposes.
This article will discuss the instruction of N-Methyl-(2-thienylmethyl)amine, including its chemical structure, production methods, and applications.
Chemical Structure of N-Methyl-(2-thienylmethyl)amine
N-Methyl-(2-thienylmethyl)amine is a derivative of ammonia and phenthylamine.
Its chemical structure can be represented as follows:
NH2-CH2-C=N-Ph
This compound contains a nitrogen atom that is bonded to a methyl group (-CH3) and a phenyl group (-C6H5), which is substituted with a methyl group (-CH3) and an amino group (-NH2).
Production Methods of N-Methyl-(2-thienylmethyl)amine
N-Methyl-(2-thienylmethyl)amine can be produced through several methods, including the following:
- Direct reaction of aniline with methyl iodide in the presence of an alkaline catalyst, such as sodium hydroxide.
This method involves the reaction of aniline with methyl iodide in an aqueous solution, followed by the addition of sodium hydroxide to eliminate the resulting HI gas. - Reaction of methylamine with 2-thiophenecarbonitrile in the presence of a base, such as sodium hydroxide.
This method involves the reaction of methylamine with 2-thiophenecarbonitrile in an aqueous solution, followed by the addition of sodium hydroxide to eliminate the resulting HCl gas.
Applications of N-Methyl-(2-thienylmethyl)amine
N-Methyl-(2-thienylmethyl)amine is a versatile compound that has several applications in the chemical industry.
Some of its most common uses include:
- As a precursor in the production of dyes, drugs, and pharmaceuticals.
- As a corrosion inhibitor in various industrial applications, such as cooling water systems and boiler systems.
- As a catalyst for the production of polyurethanes and polyester resins.
- As a ligand in the synthesis of coordination compounds and metal complexes.
In conclusion, N-Methyl-(2-thienylmethyl)amine is a versatile compound that is widely used in the chemical industry for various applications.
Its production methods include the direct reaction of aniline with methyl iodide in the presence of an alkaline catalyst and the reaction of methylamine with 2-thiophenecarbonitrile in the presence of a base.
The compound is also used as a precursor in the production of dyes, drugs, and pharmaceuticals, as a corrosion inhibitor, as a catalyst for the production of polyurethanes and polyester resins, and as a ligand in the synthesis of coordination compounds and metal complexes.
